JP6889019B2 - Spacer for double piping and double piping assembly method - Google Patents

Description

The present invention relates to a spacer for double piping used for assembling a double pipe formed of an actual pipe and a protective pipe, and assembling a double pipe using the spacer for double pipe. Regarding the method.

A double pipe formed from a real pipe and a protective pipe that covers the outer peripheral surface of the real pipe is used. In the double pipe, when the liquid leaks from the actual pipe due to aged deterioration or damage of the actual pipe, poor sealing at the connecting portion of the actual pipe, etc., the protective pipe prevents the liquid from flowing out to the outside. In addition, the protective tube absorbs the impact on the actual tube, prevents damage to the actual tube due to the impact, and further protects the actual tube from direct sunlight and wind and snow. In double piping, the actual pipe is fixed inside the protective pipe by a spacer for double piping located in the space formed between the actual pipe and the protective pipe. As an example of a spacer for double piping, a short pipe with a collar attached to the outer peripheral surface of the actual pipe, and a short pipe with a collar located between the outer peripheral surface of the short pipe with a collar and the inner peripheral surface of the protective pipe. A spacer for double piping formed from a support plate that supports the side surface of the collar portion so as to come into contact with the side surface of the inner peripheral portion is disclosed (see Patent Document 1).

Japanese Unexamined Patent Publication No. 2001-132884

In the catalog (specification table) for installers of each pipe material manufacturer, the outer diameter and inner diameter of the actual pipe are displayed as product dimensions (catalog value) together with the tolerance (margin of error: indicated by ± mm), and the outer diameter and inner diameter of the protective pipe are displayed. The inner diameter is displayed as the product dimensions (catalog value) together with the tolerance (margin of error: indicated by ± mm). In the manufacturing process of actual pipes and protective pipes, there is a tolerance of a few millimeters in the outer and inner diameters of the actual pipes and protective pipes. In the double pipe assembly to be fixed, the spacer for double pipe cannot be smoothly attached to the actual pipe due to the error of several millimeters of the outer diameter of the actual pipe, and further, due to the error of several millimeters of the inner diameter of the protective pipe. When an actual pipe equipped with a spacer for double piping is inserted into the protective pipe, clogging may occur inside the protective pipe of the spacer, which may hinder the assembly of the double pipe. It may not be possible to make heavy pipes.

An object of the present invention is to use a spacer for double piping that can be attached to an actual pipe having a tolerance and prevent clogging inside the protective pipe having a tolerance, and attach the actual pipe to the inside of the protective pipe. It is an object of the present invention to provide a double pipe assembly method which can be securely fixed to a pipe and can easily assemble a double pipe formed of an actual pipe and a protective pipe.

The premise of the present invention for solving the above problems is to fix the actual pipe inside the protective pipe by using a spacer for double piping arranged in the space formed between the actual pipe and the protective pipe. This is a double pipe assembly method for assembling double pipes.

The feature of the double pipe assembly method of the present invention in the above premise is that the actual pipe and the protective pipe are straight pipes extending in a straight line, and the spacer for double pipes has a circular insertion opening into which the actual pipe is inserted. , From the circular inner peripheral edge surrounding the insertion opening, the circular outer peripheral edge located on the side of the protective pipe, the annular portion extending between the inner peripheral edge and the outer peripheral edge and located in the space, and the outer peripheral edge. and a slit toward the inner periphery leads to the insertion opening extends rectilinearly, made from plastic material having a flexibility capable of bending the annular portion around the slit, double pipe The width dimension of the slit in the radial direction of the spacer for double piping is in the range of 2.8 to 3.2 mm, and the thickness dimension of the spacer for double piping is in the range of 4.8 to 5.2 mm for double piping. A product in which the diameter of the spacer insertion opening is ± 0 mm with respect to the outer diameter indicated as the product dimensions including the tolerance of the actual pipe, and the diameter of the annular part of the spacer for double piping includes the tolerance of the protective pipe. It is -2 to -3 mm with respect to the inner diameter indicated as the dimension, and the double pipe assembly method bends the annular part of the double pipe spacer to widen the slit and insertion opening of the double pipe spacer. While inserting the actual pipe into the insertion opening, the inner peripheral edge of the spacer for double piping is brought into close contact with the outer peripheral surface of the actual pipe, and the annular portion is attached to the actual pipe. In the process of inserting the actual pipe with the above into the protective pipe and inserting the actual pipe into the protective pipe, the outer peripheral edge of the spacer for double piping is pressed against the inner peripheral surface of the protective pipe and is in a bent state. The outer peripheral edge of the spacer for double piping is in close contact with the inner peripheral surface of the protective pipe while the annular part is deformed in a substantially straight shape, so that the spacer for double piping intervening in the space puts the actual pipe inside the protective pipe. have a fixed step for fixing, in the mounting process, double the circular portion of the spacer pipe spacer double pipe when mounted on the outer peripheral surface of the actual tube is elastically deformed, of the spacer double pipe The peripheral edge is in close contact with the outer peripheral surface of the actual pipe, and the slit and insertion opening of the spacer for double piping are widened and the annular part is bent, so that the outer diameter of the actual pipe displayed as the product size is a few millimeters. In the fixing process, the outer peripheral edge of the double piping spacer presses against the inner peripheral surface of the protective pipe in the process of inserting the actual pipe with the bent ring part inside the protective pipe. The widened slit and the insertion opening are narrowed and the bent ring part is deformed in a substantially straight shape, so that the tolerance of a few millimeters of the inner diameter of the protective tube is absorbed, and the double piping is used. The inner peripheral edge of the pacer is in close contact with the outer peripheral surface of the actual pipe, the outer peripheral edge of the spacer for double piping is in close contact with the inner peripheral surface of the protective pipe, and the actual pipe is fixed inside the protective pipe by the spacer for double piping. lies in the fact that.

As an example of the double pipe assembly method of the present invention, in the mounting process, at least two spacers for double pipes are used, and the inner peripheral edge of the spacers for double pipes is brought into close contact with the outer peripheral surface of the actual pipe to form an annular portion. Is attached to the actual pipe, and in the fixing step, at least two spacers for double piping are interposed in the space, and the actual pipe is fixed to the inside of the protective pipe by the spacers for double piping.

According to the spacer for double piping according to the present invention, a product having a slit extending straight from the outer peripheral edge toward the inner peripheral edge and connecting to the insertion opening, and the diameter of the insertion opening of the spacer includes the tolerance of the actual pipe. Since it is ± 0 mm with respect to the outer diameter indicated as the dimension, and the diameter of the annular portion of the spacer is -2 to -3 mm with respect to the inner diameter indicated as the product dimension including the tolerance of the protective tube, the spacer When the actual tube is inserted into the insertion opening and the annular portion is attached to the outer peripheral surface of the actual tube, the annular portion bends while the spacer slit and the insertion opening expand, and the outside of the actual tube displayed as the product size. The outer peripheral edge of the spacer was pressed against the inner peripheral surface of the protective tube and expanded in the process of inserting the actual tube with the bent ring portion inside the protective tube, which was able to absorb the diameter tolerance. The annular portion in which the slit and the insertion opening are narrowed and bent is deformed in a substantially straight shape, and the difference in the inner diameter of the protective tube indicated as the product size can be absorbed. The spacer for double piping absorbs the tolerance of the outer diameter of the actual pipe by bending the annular part while the slit and the insertion opening are widened, and the widened slit and the insertion opening are narrowed and bent. Since the annular part is deformed in a substantially straight shape to absorb the tolerance of the inner diameter of the protective tube, the outer diameter of the actual tube has a tolerance of several millimeters, and the inner diameter of the protective tube has a tolerance of several millimeters. Even so, it can be smoothly attached to the actual pipe having a tolerance, clogging inside the protective pipe having a tolerance can be prevented, and the actual pipe can be smoothly inserted into the protective pipe. The spacer for double piping has an inner peripheral edge that is in close contact with the outer peripheral surface of the actual pipe and an outer peripheral edge that is in close contact with the inner peripheral surface of the protective pipe, so that the actual pipe can be securely fixed to the inside of the protective pipe. , The double pipe formed from the actual pipe and the protective pipe can be easily assembled, and the double pipe can be made according to the construction procedure.

For the spacer for double piping in which the width dimension of the slit is in the range of 2.8 to 3.2 mm and the thickness dimension is in the range of 4.8 to 5.2 mm, the width dimension of the slit and the thickness dimension of the spacer are described above. Since it is within the range, when the actual tube is inserted into the insertion opening and the annular portion is attached to the outer peripheral surface of the actual tube, the annular portion is surely bent around the slit while the spacer slit and the insertion opening expand. , It is possible to absorb the tolerance of the outer diameter of the actual tube displayed as the product dimensions, and the outer peripheral edge of the spacer is protected in the process of inserting the actual tube with the bent ring part inside the protective tube. Pressed by the inner peripheral surface of the tube, the widened slit and the insertion opening narrow and the bent ring part deforms in a substantially straight shape, absorbing the tolerance of the inner diameter of the protective tube displayed as the product size. can do. The spacer for double piping absorbs the tolerance of the outer diameter of the actual pipe by bending the annular part around the slit while expanding the slit and the insertion opening of the width dimension, and the widened slit and the insertion opening are opened. Since the annulus part in the narrowed and bent state absorbs the tolerance of the inner diameter of the protective tube by deforming in a substantially straight shape, the outer diameter of the actual tube has a tolerance of several millimeters, and the inner diameter of the protective tube has a tolerance of several millimeters. Even if there is a tolerance of a few millimeters, it can be smoothly attached to the actual pipe with the tolerance, it is possible to prevent clogging inside the protective pipe with the tolerance, and the actual pipe can be smoothly installed inside the protective pipe. Can be inserted. The spacer for double piping has an inner peripheral edge that is in close contact with the outer peripheral surface of the actual pipe and an outer peripheral edge that is in close contact with the inner peripheral surface of the protective pipe, so that the actual pipe can be securely fixed to the inside of the protective pipe. , The double pipe formed from the actual pipe and the protective pipe can be easily assembled, and the double pipe can be made according to the construction procedure.

The flexible double pipe spacer, which is made of a plastic material and can bend the annulus around the slit, allows the actual pipe to be inserted into the insertion opening due to its flexibility. When the annulus is attached to the outer peripheral surface of the actual tube, the annulus is surely bent around the slit, and the tolerance of the outer diameter of the actual tube displayed as the product size can be absorbed, and the bending is achieved. In the process of inserting the actual tube with the ring part in the state of being inside the protection tube, the outer peripheral edge of the spacer is pressed against the inner peripheral surface of the protection tube, and the ring part in the bent state is deformed in a substantially straight shape. However, it is possible to absorb the tolerance of the inner diameter of the protective tube indicated as the product size. The spacer for double pipe absorbs the tolerance of the outer diameter of the actual pipe by bending the annular part around the slit while the slit and the insertion opening expand, and the widened slit and the insertion opening become narrower and bend. Since the ring portion in the closed state is deformed in a substantially straight shape to absorb the tolerance of the inner diameter of the protective tube, it can be smoothly attached to the actual tube having the tolerance, and the clogging inside the protective tube having the tolerance can be prevented. In addition to being able to prevent this, the actual tube can be securely fixed to the inside of the protective tube by keeping the inner peripheral edge in close contact with the outer peripheral surface of the actual tube and the outer peripheral edge in close contact with the inner peripheral surface of the protective tube. A double pipe formed of a pipe and a protective pipe can be easily assembled.

According to the double pipe assembly method according to the present invention, the actual pipe and the protective pipe are straight pipes extending straight, and have a slit extending straight from the outer peripheral edge toward the inner peripheral edge and connecting to the insertion opening. However, the diameter of the insertion opening is ± 0 mm with respect to the outer diameter indicated as the product dimension including the tolerance of the actual tube, and the diameter of the annular part is with respect to the inner diameter indicated as the product dimension including the tolerance of the protective tube. When a spacer for double piping, which is -2 to -3 mm, is used, and the actual pipe is inserted into the insertion opening of the spacer and the annular part is attached to the outer peripheral surface of the actual pipe, the slit and insertion opening of the spacer By bending the ring part while expanding, the tolerance of a few millimeters of the outer diameter of the actual tube displayed as the product size is absorbed, and the actual tube with the bent ring part attached is protected by the protective tube. In the process of inserting into the inside, the outer peripheral edge of the spacer is pressed against the inner peripheral surface of the protective tube, and the widened slit and the insertion opening are narrowed and the bent ring portion is deformed in a substantially straight shape. Since the tolerance of a few millimeters of the inner diameter of the protective tube indicated as the product dimensions is absorbed, the spacer can be smoothly attached to the actual tube with the tolerance and the spacer is prevented from being clogged inside the protective tube with the tolerance. At the same time, the actual tube can be smoothly inserted into the protective tube. In the double pipe assembly method, the inner peripheral edge of the spacer for double piping is in close contact with the outer peripheral surface of the actual pipe, while the outer peripheral edge of the spacer is in close contact with the inner peripheral surface of the protective pipe, thereby protecting the actual pipe via the spacer. It can be securely fixed inside the pipe, and the double pipe formed from the actual pipe and the protective pipe can be easily assembled, and the double pipe can be made according to the construction procedure.

The double pipe assembly method is that when the annular part of the double pipe spacer is attached to the outer peripheral surface of the actual pipe, the annular part bends while the slit and insertion opening of the double pipe spacer expand. In the process of absorbing the tolerance of the outer diameter of the actual pipe displayed as the product dimensions and inserting the actual pipe with the bent ring part inside the protective pipe, the outer peripheral edge of the spacer for double piping Pressed by the inner peripheral surface of the protective tube, the widened slit and the insertion opening are narrowed and the bent ring portion is deformed in a substantially straight shape, so that the inner diameter of the protective tube displayed as the product size Since it absorbs the tolerance, even if the outer diameter of the actual pipe has a tolerance of a few millimeters and the inner diameter of the protective tube has a tolerance of a few millimeters, the spacer can be smoothly attached to the actual pipe with an error. Therefore, it is possible to prevent the spacer from being clogged inside the protective tube having a tolerance, and it is possible to smoothly insert the actual tube into the protective tube. In the double pipe assembly method, the inner peripheral edge of the spacer for double piping is in close contact with the outer peripheral surface of the actual pipe, while the outer peripheral edge of the spacer is in close contact with the inner peripheral surface of the protective pipe, thereby protecting the actual pipe via the spacer. It can be securely fixed inside the pipe, and the double pipe formed from the actual pipe and the protective pipe can be easily assembled, and the double pipe can be made according to the construction procedure.

In the double pipe assembly method, the width dimension of the slit in the radial direction of the spacer for double pipe is in the range of 2.8 to 3.2 mm, and the thickness dimension of the spacer for double pipe is 4.8 to 5.2 mm. Since it is within the range, when the actual tube is inserted into the insertion opening and the annular portion is attached to the outer peripheral surface of the actual tube, the annular portion is surely bent around the slit while the spacer slit and the insertion opening expand. , The tolerance of the outer diameter of the actual tube displayed as the product dimensions is absorbed, and the outer peripheral edge of the spacer is inside the protective tube in the process of inserting the actual tube with the bent ring part inside the protective tube. Because the ring part in the bent state is deformed in a substantially straight shape by being pressed by the peripheral surface and the widened slit and the insertion opening are narrowed, and the tolerance of the inner diameter of the protective tube displayed as the product size is absorbed. , The spacer can be smoothly attached to the actual tube with a tolerance of several millimeters, and it is possible to prevent the spacer from being clogged inside the protective tube with a tolerance of several millimeters, and the actual tube can be placed inside the protective tube. It can be inserted smoothly. In the double pipe assembly method, the inner peripheral edge of the spacer for double piping is in close contact with the outer peripheral surface of the actual pipe, while the outer peripheral edge of the spacer is in close contact with the inner peripheral surface of the protective pipe, thereby protecting the actual pipe via the spacer. It can be securely fixed inside the pipe, and the double pipe formed from the actual pipe and the protective pipe can be easily assembled, and the double pipe can be made according to the construction procedure.

In the double pipe assembly method, the spacer for double pipe is made of a plastic material and has the flexibility to bend the annular part around the slit, so that the actual pipe is inserted into the insertion opening. When the annulus is attached to the outer peripheral surface of the actual tube, the annulus is surely bent around the slit, and the tolerance of the outer diameter of the actual tube displayed as the product dimensions is absorbed, and the bent circle. In the process of inserting the actual tube with the ring part inside the protective tube, the outer peripheral edge of the spacer is pressed against the inner peripheral surface of the protective tube, and the bent ring part is deformed in a substantially straight shape, resulting in product dimensions. Since the tolerance of the inner diameter of the protective tube indicated as is absorbed, the spacer can be smoothly attached to the actual tube having a tolerance of several millimeters, and the spacer is clogged inside the protective tube having a tolerance of several millimeters. The inner peripheral edge of the spacer is in close contact with the outer peripheral surface of the actual tube, and the outer peripheral edge of the spacer is in close contact with the inner peripheral surface of the protective tube, so that the actual tube is securely fixed to the inside of the protective tube. It is possible to easily assemble a double pipe formed of an actual pipe and a protective pipe, and it is possible to make a double pipe according to the construction procedure.

In the mounting process, at least two spacers for double piping are used, and the inner peripheral edge of the spacers for double piping is brought into close contact with the outer peripheral surface of the actual pipe to mount the annular portion on the actual pipe. The double pipe assembly method in which two spacers for double pipes are interposed in the space and the actual pipe is fixed inside the protective pipe by the spacers for double pipes is a straight pipe with the spacers for double pipes. Since the tolerance of the outer diameter of the actual tube is absorbed and the tolerance of the inner diameter of the protective tube, which is a straight pipe, is absorbed, the outer diameter of the actual tube has a tolerance of several millimeters, and the inner diameter of the protective tube has a tolerance of several millimeters. Even if there is, these spacers can be smoothly attached to the actual tube with tolerance, clogging inside the protective tube with tolerance can be prevented, and the actual tube can be smoothly inserted into the protective tube. be able to. In the double pipe assembly method, the inner peripheral edge of the spacers for double piping is in close contact with the outer peripheral surface of the actual pipe, and the outer peripheral edge of the spacer is in close contact with the inner peripheral surface of the protective pipe. It can be securely fixed inside, and the double pipe formed from the actual pipe and the protective pipe can be easily assembled, and the double pipe can be made according to the construction procedure.

The perspective view of the spacer for double piping shown as an example. Front view of spacer for double piping. A partially enlarged view showing another example of the outer peripheral edge of the spacer for double piping. A partially enlarged view showing another example of the outer peripheral edge of the spacer for double piping. A perspective view of a double pipe shown as an example of using a spacer for double pipe. The front view of the double pipe of FIG. The figure which shows an example of the catalog which displayed the external dimension, thickness dimension, and length dimension of an actual pipe and a protective pipe. The figure which shows an example of the mounting process of the double pipe assembly method. The figure which shows the mounting process which continues from FIG. The figure which shows an example of the fixing process of a double pipe assembly method. The figure which shows another example of the mounting process of the double pipe assembly method. FIG. 3 is a perspective view of a double pipe shown as another example using a spacer for double pipe.

The details of the double pipe spacer and the double pipe assembly method according to the present invention will be described below with reference to the attached drawings such as FIG. 1 which is a perspective view of the double pipe spacer 10 shown as an example. is there. FIG. 2 is a front view of the double piping spacer 10, and FIG. 3 is a partially enlarged view showing another example of the outer peripheral edge 21 of the double piping spacer 10. FIG. 4 is a partially enlarged view showing another example of the outer peripheral edge 21 of the double pipe spacer 10, and FIG. 5 is a perspective view of the double pipe 11A shown as an example using the double pipe spacer 10. is there. FIG. 6 is a front view of the double pipe 11A of FIG. 5, and FIG. 7 is a diagram showing an example of a product catalog showing the external dimensions, thickness dimensions, and length dimensions of the actual pipe and the protective pipe.

In FIG. 2, the radial direction is indicated by an arrow A, and the circumferential direction is indicated by an arrow B. In the product catalog shown in FIG. 7, the product name of the double pipe and the side view of the double pipe are displayed, and the actual pipe and the protective pipe are used as the product dimensions (catalog value) of the actual pipe and the protective pipe forming the double pipe. Nominal diameter, outer diameter dimension of actual pipe or protective pipe (D), thickness dimension of actual pipe or protective pipe (t), approximate inner diameter of actual pipe or protective pipe, length dimension of actual pipe or protective pipe (L) ), The mass of the actual tube and protective tube (kg / piece) is displayed. The outer diameter dimension (D) includes a reference dimension, a maximum / minimum outer diameter tolerance (tolerance), and an average outer diameter tolerance (tolerance). The thickness dimension (t) includes a reference dimension and a tolerance (tolerance).

The spacer 10 for double piping is used for assembling the double piping 11A, is located in the space 14 formed between the actual pipe 12 and the protective pipe 13, and connects the actual pipe 12 to the inside of the protective pipe 13. It is fixed to form the double pipe 11A. The actual pipe 12 is a straight pipe made of hard vinyl chloride and extending in a straight shape, and the cross-sectional shape thereof is formed into a circular shape. The actual tube 12 has a circular inner peripheral surface 15 and a circular outer peripheral surface 16, and is inserted and fixed inside the protective tube 13.

The protective tube 13 is a transparent straight tube made of hard vinyl chloride and extending in a straight shape, and its cross-sectional shape is formed into a circular shape. The protective tube 13 has a circular inner peripheral surface 17 and a circular outer peripheral surface 18, is located on the outer side in the radial direction of the actual tube 12, and covers the outer peripheral surface 16 of the actual tube 12. When the liquid leaks from the actual pipe 12 due to a predetermined cause, the protective tube 13 prevents the liquid from flowing out to the outside. In addition, it absorbs the impact on the actual pipe 12, prevents damage to the actual pipe 12 due to the impact, and protects the actual pipe 12 from direct sunlight and wind and snow. The protective tube 13 does not have to be transparent.

The spacer 10 for double piping is made of polyvinyl chloride, but may be made of another thermoplastic synthetic resin (plastic material). The double piping spacer 10 has a circular insertion opening 19, a circular inner peripheral edge 20 surrounding the insertion opening 19, a circular outer peripheral edge 21, and a donut shape extending between the inner peripheral edge 20 and the outer peripheral edge 21. It has an annular portion 22 and a slit 23 (cutting space) in which the annular portion 22 does not exist. The outer peripheral edge 21 of the double piping spacer 10 shown in FIG. 1 intersects the annular portion 22 at a substantially right angle, but as shown in FIG. 3, the outer peripheral edge 21 may be chamfered. As shown in FIG. 4, the outer peripheral edge 21 may draw an arc.

The thickness dimension L1 of the double piping spacer 10 is in the range of 4.8 to 5.2 mm. The thickness dimension L1 of the spacer 10 is preferably 5 mm. Since the spacer 10 for double piping is made of polyvinyl chloride (thermoplastic synthetic resin) and its thickness dimension L1 is within the above range, the annular portion 22 can be bent around the slit 23. It has the flexibility possible. In the double piping spacer 10, since it (annular portion 22) has flexibility, the annular portion is formed by applying a force outward in the radial direction shown by the arrow A1 in FIG. 1 so as to widen the slit 23. The slit 23 and the insertion opening 19 expand as the 22 elastically deforms and bends. When the force applied to the spacer 10 is released, the annular portion 22 elastically deforms and returns to its original shape.

The diameter L2 of the insertion opening 19 of the double piping spacer 10 is ± 0 mm with respect to the outer diameter M1 (product size) of the actual pipe 12 displayed in the product catalog. In the assembly of the double pipe 10A, the actual pipe 12 is inserted into the insertion opening 19. The inner peripheral edge 20 of the double piping spacer 10 comes into close contact with the outer peripheral surface 18 of the actual pipe 12 when the actual pipe 12 is inserted into the insertion opening 19. The outer peripheral edge 21 of the double piping spacer 10 comes into close contact with the inner peripheral surface 17 of the protective pipe 13 when the actual pipe 12 to which the spacer 10 is attached is inserted into the protective pipe 13.

The annular portion 22 of the double piping spacer 10 is located in the space 14 between the actual pipe 12 and the protective pipe 13 when the actual pipe 12 to which the spacer 10 is attached is inserted into the protective pipe 13. The diameter L3 of the annular portion 22 is -2 to -3 mm with respect to the inner diameter M2 (value displayed in the product dimension catalog) of the protective tube 13 indicated in the product catalog. The slit 23 extends straight from the outer peripheral edge 21 of the spacer 10 toward the inner peripheral edge 20. The slit 23 is connected to the insertion opening 19 from the outer peripheral edge 21. The slit 23 has a width dimension L4 in the radial direction of the double piping spacer 10 in the range of 2.8 to 3.2 mm. The width dimension L4 of the slit 23 is preferably 3 mm.

FIG. 8 is a diagram showing an example of a mounting process of the double pipe assembly method, and FIG. 9 is a diagram showing a mounting process continuing from FIG. FIG. 10 is a diagram showing an example of a fixing process of the double pipe assembly method. In the double pipe assembly method, the double pipe spacer 10 shown in FIG. 1 is used, and the actual pipe 12 is fixed inside the protective pipe 13 to assemble the double pipe 11A. In the double pipe assembly method, the double pipe 11A is made by carrying out the mounting step and the fixing step.

In the mounting step, as shown in FIG. 8, the annular portion 22 near the slit 23 is grasped with a finger, and a radial outward force is applied to the spacer 10 for double piping so as to widen the slit 23, and the spacer is used. The annular portion 22 of the 10 is bent to widen the slit 23 of the spacer 10 and the insertion opening 19. Next, the actual pipe 12 is inserted into the insertion opening 19 with the slit 23 and the insertion opening 19 widened, the spacer 10 for double piping is moved in the axial direction of the actual pipe 12, and the spacer 10 is attached to the actual pipe 12. Move to the mounting position.

After moving the double piping spacer 10 to the mounting position of the actual pipe 12, release the finger from the spacer 10 to release the force applied to the spacer 10. When the force applied to the double piping spacer 10 is released, the spacer 10 elastically deforms to return to its original shape, the inner peripheral edge 20 of the spacer 10 comes into close contact with the outer peripheral surface 16 of the actual pipe 12, and the spacer 10 becomes the actual pipe. It is mounted at 12 mounting positions. When the spacer 10 is mounted at the mounting position of the actual tube 12, as shown in FIG. 7, the slit 23 and the insertion opening 19 of the spacer 10 are slightly widened, and the annular portion 22 is slightly bent. It is in a state (slightly twisted state).

The diameter L2 of the insertion opening 19 is ± 0 mm with respect to the outer diameter M1 of the actual tube 12, and as shown in FIG. 7, the actual tube 12 has a margin of error (tolerance) of several millimeters (± mm). The actual pipe 12 cannot be smoothly inserted into the insertion opening 19 in the state of the double piping spacer 10 as it is, but since the slit 23 and the insertion opening 19 of the spacer 10 can be widened, the spacer 10 can be inserted. The actual tube 12 can be easily inserted into the opening 19. In the mounting process, when the annular portion 22 of the spacer 10 for double piping is mounted on the outer peripheral surface 16 of the actual pipe 12, the slit 23 of the spacer 10 and the insertion opening 19 are slightly widened and the annular portion 22 is slightly widened. By bending to, the margin of error (tolerance) of a few millimeters (± mm) of the outer diameter M1 of the actual pipe 12 listed as the product dimension (catalog value) in the product catalog is absorbed.

After mounting the double piping spacer 10 at the mounting position of the actual pipe 12, a fixing step is performed. In the fixing step, as shown in FIG. 10, the actual pipe 12 to which the spacer 10 for double piping (annular portion 22) in a slightly bent state is attached is inserted into the inside of the protection pipe 13 from one opening of the protection pipe 13. Insert in. When the actual pipe 12 is inserted into the protective pipe 13, the outer peripheral edge 21 of the double piping spacer 10 is pressed against the inner peripheral surface 17 of the protective pipe 13 in the process of inserting the actual pipe 12 into the protective pipe 13. The slightly widened slit 23 and the insertion opening 19 are narrowed and the annular portion 22 in a slightly bent state is deformed in a substantially straight shape, and the outer peripheral edge 21 of the spacer 10 is the inner peripheral surface 17 of the protective tube 12. Adhere to.

The actual pipe 12 and the protective pipe are in a state where the inner peripheral edge 20 of the spacer 10 for double piping is in close contact with the outer peripheral surface 16 of the actual pipe 12 and the outer peripheral edge 21 of the spacer 10 is in close contact with the inner peripheral surface 17 of the protective pipe 13. The spacer 10 is located in the space 14 formed between the space 14 and the actual pipe 12 is fixed to the inside of the protective pipe 13 by the spacer 10 interposed in the space 14. In the fixing step, the outer peripheral edge 21 of the double piping spacer 10 is placed on the inner peripheral surface 17 of the protective pipe 13 in the process of inserting the actual pipe 12 to which the bent ring portion 22 is attached into the protective pipe 13. When the annular portion 22 in the pressed and bent state is deformed in a substantially straight shape, the inner diameter M2 of the protective tube 13 listed as the product dimension (catalog value) in the product catalog is a few millimeters (± mm). Tolerance (tolerance) is absorbed. The double pipe 11A shown in FIG. 3 is assembled by inserting the actual pipe 12 to which the double pipe spacer 10 is attached into the protective pipe 13.

If the thickness dimension L1 of the double piping spacer 10 is less than 4.8 mm, the rigidity of the spacer 10 is insufficient, the fixing of the actual pipe 12 and the protective pipe 13 by the spacer 10 is insufficient, and the actual inside of the protective pipe 13 is actual. The pipe 12 may float. When the thickness dimension L1 of the spacer 10 exceeds 5.2 mm, the rigidity of the spacer 10 increases more than necessary, and the annular portion 22 cannot be easily bent and the slit 23 and the insertion opening 19 cannot be easily widened. , The spacer 10 cannot be smoothly attached to the actual tube 12 having an error. Since the thickness dimension L1 of the spacer 10 is in the range of 4.8 to 5.2 mm, the spacer 10 can be smoothly attached to the actual tube 12 having an error, and the actual tube 12 and the protective tube 13 are connected by the spacer 10. It can be fixed securely.

If the diameter L2 of the annular portion 22 of the double piping spacer 10 is less than -3 mm and exceeds -2 mm, the spacer 10 cannot absorb the tolerance (tolerance) of the outer diameter M1 of the actual pipe 12. Since the spacer 10 cannot absorb the tolerance (tolerance) of the inner diameter M2 of the protective tube 13, the spacer 10 is clogged inside the protective tube 13 having an error, and the actual tube 12 is inside the protective tube 13. Cannot be inserted smoothly, and the double pipe 11A cannot be made according to the construction procedure. Since the diameter L3 of the annular portion 22 is in the range of -2 to -3 mm, the tolerance (tolerance) of the outer diameter M1 of the actual pipe 12 can be absorbed by the spacer 10 for double piping, and is protected by the spacer 10. The tolerance (tolerance) of the inner diameter M2 of the tube 13 can be absorbed, the spacer 10 is not clogged inside the protective tube 13 having an error, and the actual tube 12 is smoothly inserted into the protective tube 13. At the same time, it is possible to make a double pipe 11A according to the construction procedure.

If the width dimension L4 of the slit 23 is less than 2.8 mm, the slit 23 and the insertion opening 19 cannot be sufficiently widened when the spacer 10 for double piping is attached to the actual pipe 12, and the actual pipe has an error (tolerance). The spacer 10 cannot be smoothly attached to 12. When the width dimension L4 of the slit 23 exceeds 3.2 mm, the slit 23 and the insertion opening 19 expand more than necessary, and the inner peripheral edge 20 of the spacer 10 adheres to the outer peripheral surface 16 of the actual tube 12 when the spacer 10 is elastically deformed. Insufficiently, the outer peripheral edge 21 of the spacer 10 becomes insufficiently adhered to the inner peripheral surface 17 of the protective tube 13, and the actual tube 12 and the protective tube 13 cannot be firmly fixed by the spacer 10.

Since the width dimension L4 of the slit 23 is in the range of 2.8 to 3.2 mm, the slit 23 and the insertion opening 19 can be sufficiently widened when the spacer 23 is attached to the actual pipe 12, and there is an error (tolerance). The spacer 10 can be smoothly attached to the actual tube 12, and when the spacer 10 is elastically deformed, the inner peripheral edge 20 of the spacer 10 is in close contact with the outer peripheral surface 16 of the actual tube 12 while the outer peripheral edge 21 of the spacer 10 is protected. The actual tube 12 and the protective tube 13 can be securely fixed by the spacer 10 in close contact with the inner peripheral surface 17 of the tube 13.

In the double pipe spacer 10 and the double pipe assembly method, the annular portion 22 (spacer 10) has flexibility and extends straight from the outer peripheral edge 21 of the spacer 10 toward the inner peripheral edge 20 to open an insertion opening. The spacer 10 has a slit 23 connected to the spacer 10, and the diameter L2 of the insertion opening 19 of the spacer 10 is ± 0 mm with respect to the outer diameter M1 indicated as the product dimension including the tolerance (tolerance) of the actual pipe 12. Since the diameter L3 of the annular portion 22 is -2 to -3 mm with respect to the inner diameter M2 indicated as the product dimension including the tolerance (tolerance) of the protective tube 13, the actual tube 12 is inserted into the insertion opening 19 of the spacer 10. When the annular portion 22 is inserted and attached to the outer peripheral surface 16 of the actual tube 12, the annular portion 22 bends while the slit 23 of the spacer 10 and the insertion opening 19 expand, whereby the actual product displayed as the product size. The spacer 10 can absorb the error (tolerance) of the outer diameter M1 of the pipe 12 (straight pipe) and insert the actual pipe 12 equipped with the annular portion 22 in the bent state into the protective pipe 13. The outer peripheral edge 21 of the protective tube 13 is pressed against the inner peripheral surface 17 of the protective tube 13, and the widened slit 23 and the insertion opening 19 are narrowed and the bent annular portion 22 is deformed in a substantially straight shape, whereby the product is produced. It is possible to absorb the error (tolerance) of the inner diameter M2 of the protective tube 13 (straight tube) displayed as the dimension.

In the double pipe spacer 10 and the double pipe assembly method, the error (tolerance) of the outer diameter M1 of the actual pipe 12 is absorbed and widened by bending the annular portion 22 while the slit 23 and the insertion opening 19 expand. Since the error (tolerance) of the inner diameter M2 of the protective tube 13 is absorbed by the annular portion 22 in which the slit 23 and the insertion opening 19 are narrowed and bent in a substantially straight shape, the actual tube 12 Even if there is an error of a few millimeters in the outer diameter M1 of the protective tube 12 and an error of a few millimeters in the inner diameter M2 of the protective tube 12, the spacer 10 can be smoothly attached to the actual tube 12 having an error. It is possible to prevent the spacer 10 from being clogged inside the protective tube 13 having the above, and the actual tube 12 can be smoothly inserted into the protective tube 13.

In the double pipe assembly method, the inner peripheral edge 20 of the spacer 10 is in close contact with the outer peripheral surface 16 of the actual pipe 12, while the outer peripheral edge 21 of the spacer 10 is in close contact with the inner peripheral surface 17 of the protective pipe 13. By doing so, the actual pipe 12 can be securely fixed to the inside of the protective pipe 13, and the double pipe 11A formed from the actual pipe 12 and the protective pipe 13 can be easily assembled. Double pipe 11A can be made.

When the outer peripheral edge 21 is chamfered as shown in FIG. 3, or when the outer peripheral edge 21 draws an arc s as shown in FIG. 4, the actual tube 12 is protected by the protective tube 13 in the fixing step. When inserting into the protective tube 13 from one opening, it is possible to prevent the outer peripheral edge 21 from being caught by the inner peripheral surface 17 of the protective tube 13, and the actual tube 12 is smoothly inserted into the protective tube 13. be able to.

FIG. 11 is a diagram showing another example of the mounting process of the double pipe assembly method, and FIG. 12 is a perspective view of the double pipe shown as another example using the spacer 10 for double pipe. In the mounting step shown in FIG. 11, one spacer 10a for double piping is mounted at the mounting position of the actual pipe 12 in the same procedure as in FIGS. 8 and 9, and the other spacer 10b is mounted at the mounting position of the actual pipe 12. .. The spacers 10a and 10b for double piping are the same as those in FIG. The thickness dimension L1 of the spacers, the diameter L2 of the insertion opening, the diameter L3 of the annular portion, and the width dimension L4 of the slits 10a and 10b are the same as those of the spacer 10 of FIG. The effect of setting the diameter L2 of the insertion opening, the diameter L3 of the annular portion, and the width dimension L4 of the slit within the above-mentioned ranges is also the same as the effect of the spacer 10 in FIG.

In the mounting process, the spacers 10a and 10b for double piping are elastically deformed, the inner peripheral edges 20 of the spacers 10a and 10b are in close contact with the outer peripheral surface 16 of the actual pipe 12, and the spacers 10a and 10b are the mounting positions of the actual pipe 12. It is attached to. When the spacers 10a and 10b are mounted at the mounting positions of the actual tube 12, as shown in FIG. 11, the slits 23 and the insertion openings 19 of the spacers 10a and 10b are slightly widened, and the annular portion 22 is formed. Is in a slightly bent state (slightly twisted state). When the annular portion 22 of the double piping spacers 10a and 10b is attached to the outer peripheral surface 16 of the actual pipe 12, the slit 23 of the spacers 10a and 10b and the insertion opening 19 are slightly widened and the annular portion 22 is formed. By slightly bending, an error (tolerance) of several millimeters of the outer diameter M1 of the actual pipe 12 is absorbed.

In the fixing step, the actual pipe 12 to which the spacers 10a and 10b (annular portion 22) for double piping in a slightly bent state are attached is inserted into the inside of the protection pipe 13 through one opening of the protection pipe 13. When the actual tube 12 is inserted into the protective tube 13, the outer peripheral edges 21 of the spacers 10a and 10b are pressed against the inner peripheral surface 17 of the protective tube 13 in the process of inserting the actual tube 12 into the protective tube 13, and the amount is slight. The annular portion 22 in a state where the slit 23 and the insertion opening 19 are narrowed and slightly bent is deformed in a substantially straight shape, and the outer peripheral edges 21 of the spacers 10a and 10b are the inner circumferences of the protective tube 13. It adheres to the surface 17.

The inner peripheral edges 20 of the double piping spacers 10a and 10b are in close contact with the outer peripheral surface 16 of the actual pipe 12, and the outer peripheral edges 21 of the spacers 10a and 10b are in close contact with the inner peripheral surface 17 of the protective pipe 13. Spacers 10a and 10b are located in the space 14 formed between the pipe 12 and the protective pipe 13, and the actual pipe 12 is fixed to the inside of the protective pipe 13 by the spacers 10a and 10b interposed in the space 14.

In the fixing step, the outer peripheral edge 21 of the double piping spacers 10a and 10b is the inner circumference of the protective pipe 13 in the process of inserting the actual pipe 12 to which the bent ring portion 22 is attached into the protective pipe 13. By deforming the annular portion 22 in a bent state by being pressed by the surface 17 in a substantially straight shape, an error (tolerance) of several millimeters of the inner diameter M2 of the protective tube 13 is absorbed. The double pipe 11B shown in FIG. 9 is assembled by inserting the actual pipe 12 equipped with the double pipe spacers 10a and 10b into the protective pipe 13. Although the double pipe 11B is assembled using the two spacers 10a and 10b for double piping, the double pipe may be assembled using three or more spacers.

In the double pipe assembly method, the spacers 10a and 10b absorb the error (tolerance) of the outer diameter M1 of the actual pipe 12 (straight pipe) by the spacers 10a and 10b, and the protective pipe 13 (straight pipe). ) Is absorbed, so even if the outer diameter M1 of the actual tube 12 has an error of several millimeters and the inner diameter M2 of the protective tube 13 has an error of several millimeters, the error The spacers 10a and 10b can be smoothly attached to the actual pipe 12 having an error, and the spacers 10a and 10b can be prevented from being clogged inside the protective tube 13 having an error. Can be inserted smoothly.

In the method of assembling the double pipe spacers 10a and 10b and the double pipe, the inner peripheral edge 20 of the spacers 10a and 10b is in close contact with the outer peripheral surface 16 of the actual pipe 12, and the outer peripheral edge 21 of the spacers 10a and 10b is the protective pipe 13. The actual pipe 12 can be securely fixed to the inside of the protective pipe 13 by being in close contact with the inner peripheral surface 17 of the above, and the double pipe 11B formed from the actual pipe 12 and the protective pipe 13 can be easily assembled. It is possible to make a double pipe 11B according to the construction procedure.

10 Spacer for double piping 10a Spacer for double piping 10b Spacer for double piping 11A Double piping 11B Double piping 12 Actual pipe 13 Protective pipe 14 Space 15 Inner peripheral surface of actual pipe 16 Outer surface surface of actual pipe 17 Protective pipe Inner peripheral surface 18 Outer peripheral surface of protective pipe 19 Insertion opening 20 Inner peripheral edge 21 Outer peripheral edge 22 Circular part 23 Slit L1 Thickness dimension of spacer for double piping L2 Diameter of insertion opening for spacer for double piping L3 Circular part Diameter L4 Slit width dimension M1 Outer diameter of actual pipe M2 Inner diameter of protective pipe

Claims (2)

In a double pipe assembly method in which a double pipe is assembled by fixing the actual pipe inside the protective pipe by using a spacer for double pipe arranged in a space formed between the actual pipe and the protective pipe. ,
The actual pipe and the protective pipe are straight pipes extending in a straight line, and the spacer for double piping has a circular insertion opening into which the actual pipe is inserted and a circular inner peripheral edge surrounding the insertion opening. , A circular outer peripheral edge located on the side of the protective tube, an annular portion extending between the inner peripheral edge and the outer peripheral edge and located in the space, and a direct line from the outer peripheral edge toward the inner peripheral edge. It is provided with a slit that extends in a shape and connects to the insertion opening, is made of a plastic material, and has flexibility capable of bending the annular portion around the slit.
The width dimension of the slit in the radial direction of the double pipe spacer is in the range of 2.8 to 3.2 mm, and the thickness dimension of the double pipe spacer is in the range of 4.8 to 5.2 mm. There, the diameter of the insertion opening of the double piping spacer, wherein a ± 0 mm with respect to the displayed outer diameter as product dimensions including tolerances of the actual tube, the diameter of the annular portion of the double tube for a spacer Is -2 to -3 mm with respect to the inner diameter indicated as the product size including the tolerance of the protective tube.
In the double pipe assembly method, the actual pipe is inserted into the insertion opening while bending the annular portion of the double pipe spacer and widening the slit and the insertion opening of the double pipe spacer. The mounting process in which the inner peripheral edge of the spacer for heavy piping is brought into close contact with the outer peripheral surface of the actual pipe to attach the annular portion to the actual pipe, and the actual pipe to which the annular portion in a bent state is attached is protected. In the process of inserting the actual pipe into the inside of the pipe and inserting the actual pipe into the inside of the protection pipe, the outer peripheral edge of the spacer for double piping is pressed against the inner peripheral surface of the protection pipe, and the annular portion in a bent state. The outer peripheral edge of the double pipe spacer is brought into close contact with the inner peripheral surface of the protective pipe while being deformed into a substantially straight shape, so that the actual pipe is made of the protective pipe by the double pipe spacer interposed in the space. It has a fixed step of fixing the inside,
In the mounting step, when the annular portion of the double pipe spacer is mounted on the outer peripheral surface of the actual pipe, the double pipe spacer is elastically deformed, and the inner peripheral edge of the double pipe spacer is the actual pipe. The number of commas in the outer diameter of the actual pipe displayed as the product dimensions due to the fact that the slit and the insertion opening of the double piping spacer are widened and the annular portion is bent while being in close contact with the outer peripheral surface of the pipe. The tolerance of millimeters is absorbed,
In the fixing step, the outer peripheral edge of the double piping spacer is pressed against the inner peripheral surface of the protective pipe and spreads in the process of inserting the actual pipe to which the bent ring portion is attached into the protective pipe. By deforming the annular portion in a bent state in which the slit and the insertion opening are narrowed in a substantially straight shape, the tolerance of a few millimeters of the inner diameter of the protective tube is absorbed, and the double pipe is used. The inner peripheral edge of the spacer for double piping is in close contact with the outer peripheral surface of the actual pipe, and the outer peripheral edge of the spacer for double piping is in close contact with the inner peripheral surface of the protective pipe. A double pipe assembly method characterized in that it is fixed inside a protective pipe. In the mounting step, at least two spacers for double piping are used, and the inner peripheral edge of the spacers for double piping is brought into close contact with the outer peripheral surface of the actual pipe to mount the annular portion on the actual pipe. The double pipe assembly according to claim 1, wherein in the fixing step, at least two spacers for the double pipe are interposed in the space, and the actual pipe is fixed to the inside of the protective pipe by the spacers for the double pipe. Method.

Images